Change-making cash-register.



E. J. VON PEIN.

CHANGE MAKING CASH REGISTER.

APPLICATION FILED JUNE 20, 1007.

1,034,500. Patented Aug. 6, 1912.

10 SHEETSSHEET l Pa 0d Out wiimaooe s \wlkw W 4%.

' E. J. VONPEIN. CHANGE MAKING CASH REGISTER.

APPLICATION FILED JUNE 29, 1901. 1 8% 50Q,

Patented Aug. 6, 1912.

10 SHEETSSHEET 2.

wvewboz @Bwmawk W v I m 1U awe anew Q B. J. VON PEIN.

CHANGE MAKING CASH REGISTER.

APPLICATION FILED JUNE 29, 1907.

1,034,500.- Patented Aug.6,1912.

l0 SHBETSSHEET 3.

wi-imeoacn I mgamm wxw 1b 4 A E. J. VON PE IN.

CHANGE MAKING CASH REGISTER.

APPLICATION FILED JUNE 29, 1907,

LUQfiOO, Patented Aug. 6, 1912.

10 SHEETS-SHEET 4.

MI 1: 1:: Hi u;

E. J. VON PEIN.

GHANGE MAKING CASH REGISTER. APPLICATION FILED JUNE 29, 1907.

1,034,500. ,Paiented Aug. 6, 1912.

10 SHEETSSHEET 54 Fig.5.

wit/memes E. J. VON PEIN.

CHANGE MAKING CASH REGISTER APPLIGATION FILED JUNE 29, 1907. 1,034,500. 0 Patented Aug. 6, 1912.

10 SHEETS-SHEET G. 0 a g 5 mil W m WHH W 5 H: I if A 1 l1 If I 8 m wi'meaacg E. J VON PEIN.'

CHANGE MAKING CASH REGISTER.

APPLICATION FILED JUNE 29, 1907 1,034,500. Patented Aug. 6, 1912.

10 SHEETS-SHEET 7.

l witnesses Fig.7,

E. J. VON PBIN.

CHANGE MAKING GAS'H REGISTER.

APPLICATION FILED JUNE 29, 1907.

1,034,500. Patented Aug. 6,1912.

10 SHBETSS HEBT 8.

@awdf Q (M g; abto znm y E. J. VON PEIN.

CHANGE MAKING CASH REGISTER.

APPLICATION FILED JUNE 29,1907. 1,084,500, Patented Aug, 6,1912.

10 SHEETS$HEET 9 E. J. VON PEIN.

CHANGE MAKING CASH REGISTER.

APPLICATION FILED JUNE 29, 1907.

awuewtoz inn:

r HZ $r 10 SHEETS+SHEET 10.

Patented Aug. 6, 1912.

lllll |H|l| lm Witnesses z w 13mg m 1 5:2 n

UNITED STAIEES PATENT OFFICE.

EDWARD J. VON 'PEIN, OF DAYTON, OHIO, ASSIGNOR TO THE NATIONAL CAS H REG- ISTER COMPANY, OF DAYTON, OHIO, A CORPORATION OF OHIO, (INCORPORATED IN CHANGE-MAKING CASH-REGISTER.

To all whom it may concern:

Be it known that I, EDWARD J. VoN PEIN, a citizen of the United States, residing at Dayton, in thecounty of Montgomery and State of Ohio, have invented certain new and useful Improvements in Change-Mal;- ing Cash-Registers, of which I declare the following to be a full, clear, and exact description.

This invention relates to machines for automatically computing and ejecting change, and has for its main object to provide an improved construction of such a type of machine. As the mechanism is shown a cash register is connected thereto, but the invention is complete and useful without the cash register, although with the use of the cash register the additional function of keeping track of the amounts of sales may be per formed.

Another object is to provide a change making machine having one set only of manipulative devices, these devices serving to control the mechanism in accordance with both the'deposit and the purchase amounts.

Another object is to provide selectors for automatically determining the amount of change to be ejected, these selectors being controlled successively in opposite senses at successive operations of the manipulative devices.

A further object is to provide an improved change making mechanism wherein the operation of the change delivering or ejecting devices is controlled by a main operating device, such for example, as a cash receptacle having a movable part.

A further object is to provide a mechanism which will prevent the delivery of any change it the purchase amount indicated on the manipulative devices is higher than the deposit "amount, also indicated on said de- V1668. I 1

An additional object is to provide an improved construction of selecting device for delivering five cent coins or nickels, whereby the nickel mechanism is in effect made part of the dimes denomination selecting mechanism.

i/Vith these and incidental objects in view, the invention consists in certain novel fea tures of construction and combination of parts, the essential elements of which are set Specification of "Letters Patent.

Application filed June 29, 1907.

Patented Aug. 6, 1912.

Serial No. 381,410.

forth in appended claims and a preferred form of embodiment of which is hereinafter described with reference to the drawings which accompany and form partof this specification.

Of said drawings: Figure 1 is a plan view of the complete machine. Fig. 2 is a trans verse vertical section through .the machine showing the register connections. 3 an elevation of the right hand end of the machine showing the printing mechanism. Fig. 4 is a transverse vertical section on line 44 of Fig. 1 showing some of the selector controlling connect-ions and the drawer releasing device. Fig. 5 is a transverse vertical section through the machine on line 5-5 of Fig. 1, and looking in an opposite direction from that of Fig. 4. Fig. 6 is a section on line 66 of Fig. 1 looking in the direction of the arrow on said figure. Fig. 6 is a detail of some of the parts shown in Fig. 6, the detail being in plan. Fig. 7 is a plan view of the selecting and ejecting mechanism, the coin receptacles having been removed. Fig. 8 is a vertical detail sect-ion of Fig. 1 showing the pennies controlling mechanism. Fig. 9 is a vertical detail showing the dollars ejecting mechanism. Fig. 9 is a detail showing part of the mechanism for preventing ejection of'change; Fig. 10 is a vertical detail showing the fifty cent ejecting mechanism and controlling devices. Fig. 11 is a detail showing the means for connecting the selecting devices with their operating mechanism. Fig. 12 is a detail showing a transfer device operative between the denominations of the selecting device. Fig. 13 is a detail showing the means for throwing out the counter and for shifting some of the select-or connections. Fig. 14 is a detail of the ejector controlling mechanism. Fig. 15 is a detail of the five cent selecting device. Fig. 16 is a section of the selecting mechanism.

The mechanism in general comprises a series of receptacles for coins of difierent denominations and delivering mechanism for ejecting coins therefrom, together with selecting devices for controlling and determining the movement of the change delivering devices, and operating mechanism for the selectors. As shown in this 'case the selecting. mechanism comprises iotary denominational elements which are arranged to be moved in opposite senses or directions ditl ercntially by the controlling keys, the final ditl erential position of the selector determining the amount of change which will be ejected. A transfer mechanism operating to subtract from lower to higher de nominations is provided, which performs the function ordinarily termed borrowing in subtraction. This type of selecting device entirely obviates the use of any alternate connections such as are in use in certain other types of change making mechanism, thereby eliminating the complexity and uncertainty incident to the use of that type of connections. In the present machine one set only of manipulative devices is employed, successive operations of which serve to adjust or position the selecting mechanism in opposite senses. This construction provides a distinct advantage over machines having two sets of manipulative devices, one for the deposit and one for the purchase mechanism, inasmuch as the construction is much less expensive and much less compli cated when one set only of n'ianipulative devices is employed. The deposit mechanism is first actuated, serving thereby to connect the selectors with the operating mechanism and to differentially adjust them, and when the same set of devices are operated again, the connection is automatically reversed so that the second operation reversely moves the selectors to an extent. depending on the devicesoperated.

When the selecting mechanism has been adjusted to the proper amount of change, a main operating device, here shown as a cash drawer, is operated which serves to actuate the delivering mechanism to eject the predetermined amount of change and to restore all the parts to their normal positions. This feature of connecting the cash drawer for operating part of the mechanism is of advantage, inasmuch as the cash drawer will necessarily be required to be opened in order to place the deposited amount therein, as well as in some cases for the withdrawal of bills for change.

A printin mechanism under control of the manipulative devices is provided so that both the purchase and the deposit amounts will be printed on some record material at. each operation of the machine, the record material being spaced between the printing of the purchase and deposit amounts, and spaced a greater distance after the printing of both amounts, so that on the record strip amounts will be printed in pairs close to gether with a space between pairs, thereby allowing an easy determination of all the parts of each sale. Certain other of the specific parts of the machine will be referred to in the specific description which tollows.

osasoo The present invention is shown as applied to a well known type of irachine now on the market, but it is to be'understood at the outthat the change making n'iechanism may be applied to many dillerent types oi machine, the machine used being chosen as a well known example only. in this machine, a typical section of which is shown in Fig. 2, series of amountkeys 12 are provided jcurnaled on the supporting rod 13 and provided at their rear ends with standards l lhaving ditl erentially graded notches 15 adapted to engage a bar 16 of an operating or registering frame, and. thereby serving to rotate segments 1? dill erentially. These segn'ients are arranged to operate counter wheels 17 to add the desired amount on the counter. This differential mechanism is arranged in the present case to adjust the change selecting mechanism.

Referring now to Fig. lit will be seen that some of the parts shown in Fig. 2 are also shown in this figure. The registering segments 17 are driven through cross con nections from the devices, which also operate additional segments 18. The cross coniections are somewhat different for the dittcrent banks of devices. The units registering segment 17 Figs. 1 and 2) is geared to a pinion 19 on a shaft 20, and also mounted rigidly on this shaft are pinions 21 and 22, pinion 22 shown in Fig. t gearing with the pennies segment 18 which is directly actuated from the penny keys 12. in case of the dimes registering segment 17 this is operated by a sleeve mounted on the shaft 23 supporting'all the segments, and the opposite end of the sleeve is connected through a yoke arm 24. with the corresponding operating segment 18. The dollars registering segment 17 is mounted rigidly on shaft 23 and the corresponding actuating segment 18 for the selectors is also rigidly mounted on the shaft. Clearly other types of connections may be employed between these pairs, of segments. provided the connections fulfil the requirement that the segments must move together in both directions. It will be seen from Fig. 4 that the segments 18 which control the selectors gear with pinions 22 and As seen in. Figs. 1 and 7 the pinions 22 are carried rigidly on sleeves which are (except the pennies sleeve) loose on the supporting shaft 20. U11 the other ends of these sleeves are larger pinions 21 which gear with pinions 27 on the same shaft as pinions 26, both the pinions 26 and 27 being loose on the shaft. It will be seen that this construction compels the pinions 26 and 27 to move correspondingly to the movements of segments 18 but in opposite directions. The pinions 22 and 26 move together, but clearly by the connection of pinion 2 to pinion 27 through the sleeve, the pinion 22 while the pinions 28 and 29 are loose.

provides a reverse movement of pinion 26. Pinions 26 and 27 are each rigidly connected to additional pinionsbeside them, pinion 26 being connected to pinion .28, and pinion 27 to pinion 29, so thatthe pinions 28 and 29 also move in opposite directions. This mechanism is precisely repeated for the dimes denomination and the dollars denomination as shown in Fig. 7 and Fig. 16, so that no additional description of the higher denominations 'will' be necessary. Mounted between each pair of pinions 28 and 29 is an additional pinion 3O controlling the change selecting mechanism directly. These. pinions 30 are arranged to be connected to pinions 28 and 29 successively at successive operations of the keys 12 through a series of gears 31 mounted loosely on a supporting rod 82 which is arranged to be slid laterally and rocked around a center pivot to provide for changing the position .of the pinions 31, so as to engage either pinion 29 or pinion 28 and also to rock the said pinions 31 into gear. It will be understood from the foregoing description that when the amount keys 12 are operated the pinions 31' are moved-"directly. intogear with pinions 28- and 30 (refer to Fig.7) so that the "opera tion of the keys will mov'e the selector controlling pinion 30 in one direction. At the next operation of the keys for the purchase amount the'shaft 32 is slid laterally and it is rocked so that the pinion 31 then connects pinions 29 and 30 thereby producing a reverse motion of pinions 30 corresponding to the purchase amount, whereby at the end of.the second operation of the keys the se lector pinions 30 are in an intermediate position depending on the amount of change to be delivered The mechanism. for sliding and rocking the shaft 32 will be referred to hereafter.

The connections from the several pinions 30 to the selectors themselves are shown in Figs. 7 and 16. Fig. 16 shows a section through the center of the shaft supporting all the pinions 28, 29 and 30 and shows the sleeved connections from said pinions to the selectors proper. The dollars set of pinions-28, 29 and 30 are mounted directly on the supporting shaft 36, the pinion 30 being tight on said shaft and the pinions 28 and 29 being loose on the said shaft. The dimes pinions are carried bythe sleeve 37 sur-- rounding said shaft. On said sleeve the dimes pinion 30 is tightly carried and the pinions 28 and 29 are loosely mounted. The pennies selecting "pinions are all carried by a sleeve 38 surrounding the sleeve 37 and on this sleeve the pennies pinion 30 is tight,

The dollars selector 41 is rigidly carried by the shaft 36 at the right as shown in Figs. '7

and 16 of the sleeves 37 and 38. Thisdoh lar selector is also shown separately'in Fig.

9. The sleeve 37 driven by the dimes pinion 30 ca ries the dimes selector 42, this selector being a cylinder having cut awayportions shown in Figs. 1 and 9. r

The pennies selector 43 is carried rigidly by sleeve 38 which also rigidly carries the pennies pinion 30 and this sleeve also carries a nickel selecting device 44, this device being shown separately in Fig. 15. The sleeve 38 controlling the pennies and nickel selector also drives a gear 46 meshing with a gear 47 on a sleeve 48 which is connected to agear 49 at'the other end of the sleeve as shown on Fig. 7 for restoring the parts to normal position, as will be hereafter described. The dimes sleeve 37 carries beside the dimes selector 42 the restoring pinion 50 meshing with a pinion 51 on a sleeve 52 surrounding the pennies restoring sleeve 48, this sleeve 52 carrying at its outer end arestoring pinion 53. The shaft 36 which is 'moved by the dollars selecting pinion 30 carries a restoring gear 54 meshing with a gear 55 mounted on a sleeve 56 at the ohter end of which is a restoring pinion 57. These three restoring pinions 49, 53 and 57 are adapted to be returned by operating segments shown in Fig. 6 as actuated by the cash drawer so that the entire train of mechanism shown in Fig. 16 will be restored to normal position after each operation of the machine.

As before stated, whenthe keys are operated for the deposit amount the connecting pinions 31 are first thrown into gear with the pinions 28. and 30, thereby turning the selecting pinions 30 in one direction, and

automatic connections are provided whereby a succeeding operation of the keys for the purchase amount shifts the connections so .that the pinions 31 connect pinions 29 and 30 to produce opposite movements of said pinions 30'. T0 accomplish this function the key coupler 60 of the machine (Fig. 5) is arranged to give a complete rotation to the main shaft 61 at each operation of the keys through the well known reciprocating rack mechanism 62. This rotating shaft 61 near its right hand end carries a gear 63 connected through gears 64 and 65, mounted on a sleeve 66 surrounding a stub shaft 67, to a gearv 68 which is twice the size of gear 63.

This mechanism is best shown in Figs. 6

and 6 Gear 68 therefore makes a half r0- tationa-t each operation of the keys, so that a deposit and a purchase registration will together cause a complete rotation of the gear 68. Attached to this gear to rotate therewith is an integral cam 69 having a groove 70 in which rides an anti-friction roller 71 connected to an angle piece 72 mounted on a. lateral rod 73. The shape of the cam groove 70 is such that when the keys are depressed, no movement of the shaft 73 1s given, but when the keys are permitted to rise the oblique portion of the groove engages the roller and shifts it. laterally to the left as seen in 1 and 18. For the second operation of the keys therefore the shaft has been shifted laterally to the left and a corresponding operation takes place, that is, during the second depression of the keys the rod 73 remains in its shifted position, but

durin the succeedin elevation of the he s the cam groove returns it to its first posi tion. llt will be seen therefore that in both cases while the keys are being depressed the lateral rod 73 remains in either its normal or its adjusted position and thatin both cases as the keys rise the rod 73 is shifted. The rod 73 carries, as shown in Fig. 13, two collars 74: hearing headed pins 75 projecting through longitudinal slots 76 (Fig. 11) in frame bars 77 supporting the rod 32 which carries the connecting pinions 31, so that the selecting pinions are moved in both directions with the rod 73, although there is a slight lost motion in the connection, the movement of the rod 73 being greater than is requisite for the pinions 31; it may be here stated that the additional movement of the rod 73 is necessary for the purpose of throwing out or preventing operation of the totalizer. The shaft (31 as before stated makes a complete rotation at each opera tion of the keys and this feature is taken advantage of to control the rocking of the connecting pinions 31 into and out of mesh with the selecting pinions. As shown in Fig. 11 this shaft 61 carries a pair of cams S1 and 82 which respectively engage ant-ifriction rollers 88 and 84 mounted on the frame arms 77 The mechanism is shown in Fig. 11 in its normal position and it will be clear that when shaft 61 rotates in the direction of the arrow the pinions 31 will be forced into engagement with the selector pinions, held there during the depression of the keys and then positively moved out of gear with the selecting pinions during the upward movement of the keys. This clearly pro vides for moving the selecting pinions in one direction only from the keys. It may be here noted that the cams 81 and 82 are wide enough or the antifriction rollers 83 andSt are made wide enough to engage in both the normal and the shifted positions of the frame arms 77.

The selectors themselves may next be specifically described. 'Pennies selector 43 is shown in Fig. 8 and comprises a disk having two sets of oppositely placed surfaces. This disk is as before stated mounted rigidly on sleeve 88 and is rotated in either direction to a position determining the amount of change to be ejected. As a complete rotation of the selector 13 requires ten steps of movement it is clear that the graduations will be in two sets. The highest point of the penny selec tor 13 is normally under a controlling device roeaaoo as shown in this figure, the controlling device comprising arms 100 and 101 connected as shown in Fig. 7 by, a sleeve 102. A by pass or wiper pawl 103 is mounted on the arm 101 normally engaging a pin 101 and the pawl itself directly engages the selecting disk. The purpose of providing this pawl is that the selector may be moved in either direction so that it is necessary to re store it to normal position some times in one direction and sometimes in another, and clearly if the part 103 instead of being a pawl was a rigid projection the high point of the disk 13 could not pass the same as will sometimes be required. The arm 100 supports a bent bar 106 which extends under the penny receptacle 107 and serves to raise and lower the coin stack therein. In this machine the ejector-s are all arranged to be thrown backward and then forward at each operation of the machine and at the return forward movement of the ejectors if the penny stack has been lowered one or more of the coins therein will be ejected.

The dollar ejector 41 is shown in 1 lg. 9

and comprises a disk having one half thereof differentially cut away into steps, while the other half is a smooth circular curve. It will be understood, however, that the reason for this smooth curve is that the machine as shown is not adapted to change amounts higher than live dollars, so that only half the periphery of the disk l1 needs to be used. Coacting with the selector 41 is an arm 111 connected through a sleeve 112 (Fig. 7) to a second arm 113 supporting a bent arm 114 which extends under the coin stack'115 for the dollars. The operation of the dollars ejector is similar to the operation of the ejector for the pennies.

In the case's of both the pennies and the dollars ejector-s, a rotating disk is made use of as the selector, but the dimes selector is diflierently shaped, comprising a cylindrical device 42 having two sets of oppositely arranged s teps. These steps are adapted to control the ejection of ten cent and twentyfive cent coins, the ejection of a fifty cent coin when necessary being produced by an annular cut away portion of the cylinder shown in Fig. 10 and numbered 121, this cut away portion also being shown in Fig. 16. The dimes selector also moves to any one of ten positions, in five of which a half dollar should be ejected and in five of which a half dollar should not be ejected. For this reason cut away portion 121 extends half way around the cylinder and for this reason diametrically opposite portions thereof are equally cut longitudinally, inas much as an equal amount of 5, 10 and 25 ct. coins should be ejected whether one end of a diameter is engaged by the change controlling device or the other end. i

lln the case of the pennies and the dollars I tions. As the drawer is pushed back to its inward position the ejectors are forced under the coin stacks and eject the proper amount of change, this inward or rearward movement of the drawer also serving to restore to normal or zero position all of the select-ing mechanism and connections.

The large gear 68 shown in Fig. 6 is arranged to make a half rotation at each operation of the keys and for this reason this gear is used to control the drawer release. A square pin 151 is carried onthis gear and normally rests against a bar 162 carried by a link 163 and a crank arm 164, thereby giving the arm 162 a nearly parallel motion.

' The crank arm 164 is mounted on a pivot shaft 165 which also as shown in Fig. A: carries near the center of the machine another arm 166 projecting over an anti-friction roller 167 mounted onabell crank lever 168. This bell crank 168 is provided at its forward end with a lateral flange 169 which when the bell crank is depressed engages under a latch 170 beside which is pivoted arm 171 having a pin 172 projecting over the rearward extension of the latch 170. The rear arm of the bell crank 168 engages a wheel 173, the notches of which are in the path of an angle piece 174 fastened on the cash drawer. It will be clear that in the posit-ion of the partsshown in, Fig. 4, the

cash drawer is locked against forward movement. When the keys are operated for a deposit amount, the projecting pin 151 on the gear 68 is carried away from the arm 162 and thereafter when the purchase amount keys are operated, the pin 151 completes its rotation to the position of Fig. 6, during the very last part of this movement engaging the top end of the arm 162 and depressing the same until the pin 151 passes free of the said arm. This lowering of the arm 162 rocks the shaft 165 and so depresses the, arm 166 carrying down with it the bell crank 168 and releasing the cash'drawer. As the. bell crank moves downward the flange 1.69 thereof engages under and is latched by the pawl 170 being held in drawer releasing position until the angle flange 174 strikes the lower end of'the arm 171, thereby rocking the pawl 170 back- .ward and releasing the bellcrank 168. The

drawer then moves on outwardly to its extreme forward position from which it is manually returned.

The drawer is provided with a horizontal rack 176 shown in Figs. 4 and 5 which rack engages a gear 177 on a short shaft 178. On the other end of the shaft as shown in Figs. 1 and 6 is a gear 179 meshing with a large mutilated gear 180 mounted on a pin l 181 on the main frame. It is from this large gear that the drawer controlled part of the 'operation is effected.

It was before stated that as the drawer moved outwardly the ejectors were withdrawn to an operative posit-ion and the ejector determining devices permitted to move -to a position depending on the setting of of the groove. The result of this is that as the gear is rotated in the direction of the arrow, no movement of the lever 182 takes place until the drawer is about half way out, but during the farther opening of the drawer the lever is rocked around its center pivot to throw its upper end rearward. The upperend of lever 182 has a pin and slot connection to a crank arm 186 rigidly mounted on a shaft 187, which shaft as shown in Figs. 4, 8 and 9 carries rigidly depending crank arms 188 having pin and slot connections and to the ejectors 189. It will be clear from this description that the ejectors are drawn rearwardly, that is to the right as seen in the figures referred to, during the latter half of the opening movement of the cash drawer and during the first half of the return movement thereof are drawn forward again to their original position thereby ejecting some of the coins.

To perm-itthe determining devices to control the ejection of coins under determination of the selectors a second cam groove 191 is provided in the mutilated gear 180. This cam groove has riding therein a roller 192 which serves to move upwardly and downwardly two arms 193 and 1941, these arms having cut away portions in which moves a pin 195, to guide the arms. As the cash drawer opensthe shape of the cam groove is such that the roller 192 is raised, thereby carrying up the arm 193. This arm 193 is connected through a link 196 to a crank arm 197' mounted on a sleeve 198 on the shaft 187 to which collar is also rigidly connected a second crank arm 198 serving to move the link 199 and through this link to rock a second crank arm 200 rigidly mounted on' shaft 201, which shaft also loosely supports the ejector controllers for the pennies, dollars and half dollar coins as shown in Figs. 8, 9 and 10. This shaft 201 is therefore rocked as the cash drawer opens,.there by rocking a series of arms 202 also rigidly carried thereon tocarry pins 203 projecting laterally from said arms away from the ever arms which engage the various selectors. It will be seen that as the shaft 201 rocks, the pins 203 will be carried away from the determining levers which will then drop until one of the arms thereof-engage the selecting devices, thereby in the case of the pennies .and the dollars lowering" the' shown in Fig. 10 to permit an'ejection ofone half dollar if required. It will be understood, however, that themechanism'is shown in normal position in Figs. 8, 9 and 10 so thatif the selectors havenot been moved, no pennies or dollars will be ejected, even though the pins 203 are moved 'from under the determining devices.

- The operation of the'deterininin'g devices for thefi've cent, ten cent" andtwenty five centejectors may next be described;

It will be remembered that it wasstated that the five cent ejector was in efi'ect made apart of the dimes denomination and this is accomplished by providing for a" movement in 'steps'of a dimes determining device under control of the dimes selector to determine the number of dimes ejected,

the movement being in direct proportion to the amount of change required. To provide for the ejection of nickels this laterally moving determining device has an additional controlling mechanism-under the'control' of the-nickels selector which will permit and provide for an additional half step movement laterally of the dimes determining device, thereby permitting the ejection of an extra nickel whenever necessary. This determining device comprises the slide'121 shown in Fig. 14 which will'be seen to be provided i with a series of notches inthe under side thereof, these notches being arrangedto cooperate with the ejectors 210 for the nickel, dime and twenty fivecent coins. The slide 121- is carried by headed pins 211 mounted on the frame and'at the' right hand end of the slide isa. bent driying arm 212 connected to a second slide'213 also carried through slots through which pass headed pins 214. Directly over the slide'213 is a second slide 215 having'a cam groove. 216 in the right hand end thereof as also shown in Fig, 7, this slide also being carried by the pins 214 and serving to drive slidev 213 and the slide 121 through a ver tical extension 217 of the slide 213, which vertical extension supports a plate 218,

the plate 218 having a square pin 219'pro-' jecting therefrom which passes-through a slot in the plate 217 and engages" as' shown in Fig. 7 with cylindrical dimes selecting device 42. Thevertical extens iq I1. 217 and the plate 218 are each providedwith pins supporting anti-friction rollers 220 and 221, these rollers being also shown in Fig. 15, it being noted that roller 220 is fast to slide 217 while roller 221 is fast to the plate 218 and passes through a slot in the slide 217. These rollers 220 and 221 engage in two cam grooves 222 and 223 in the nickel selector. These cam grooves are parallel for half of the distance around the selector, then approach each other as shown in Fig. 15then remaining parallel for-the other half distance around the cylinder and then passing farther apart. The device is shown in normal position in Fig. 15 and .if' a deposit. movement of from one to four cents is made, the rollers will simply permit the selector'to move around withoutdisplacing them. If an amount from five to ninecents is registered as a deposit, the separating portions of the grooves will pass the rollers, thereby forcing the rollers apart, or rather moving one of the rollers. It willbe ref member'ed that roller 220 is carried by the slide 217 but as slide 217' is'rigidly held until positively moved, the rotation of the nickel selector will, if the separating portions of the movement-'- reach the rollers cause a movement to the right of roller 221, as long as the rolle r'22O is held stationary. This movement also necessitates a movement to the right of the nickel selector 44, and this is provided for bysplining the said selector or a sleeve surrounding and rigid with the sleeve 38 (see Fig. 16). The lateral movement of the slide 215 and the consequent movement of the determining slide 121'are provided for by a crank arm depending from collar 198- which is rocked by the opening movement of the cash drawer; A roller-shown in dotted lines in Fig; 7 and numbered 231' is fastened at the lower end of'the crank armand rides in the cam groove 216 of the plate 215. When the drawer is opened, the rollers- 231 will be moved through the cam-slot 216, thereby forcing-the slide 215 to the left and carry ingthe determining slide 121' with it. It

will be seen from Fig. 7 that the square projection 219 from plate 218 is adapted to engage and be stopped by the steps of the cylindrical dimes-selector 42.

The change ejecting and determining operation may be reca itulated as follows: The two operations oft e keys serve to position all ,the selectors difierentially, the pennies and dollars selectors passing under the de pending arms as shown in Figs- 8 and 9, the dimes cylindricalselector being rotated more or less and the nickel selector 44 being also rotated more or'less. In the case of -the nickel, selector, if-fro'm one to four cents is finally to be ejected, therollers 220 and 221 retain the posltion of Fig. 15 and no movement of the parts controlled thereby is given. If, however, the final position of the nickel selectoris such that from five to nine cents should,.-be ejected, the-cam grooves 222 and 223 will have forcedthe roller 221 to'the right as roller 220 is rigidly held, thereby slightly sliding the selector. 44 on its sleeve. Assuming a five cent coin to be needed as change, the plate 218 will therefore then determining sli step less movement to the determinin move what may be termed a half step to the right, thereby carrying square pin 219a half step away from the dimes selector. When the cash drawer is opened the determining devices for the pennies and dollars coin stacks are allowed to be positioned as determined by the pennies and dollarsselectors,

and the plate 215 is moved positively to the left by the rocking of the sleeve 198 and the crank arm depending therefrom. As shown in Fig. 14 the vertical extension 217 of plate 213 is connected to the slide 215 by' a spring 236 which clearly will be tensioned as the slide 215 moves to the left. The tensioning of the spring 236 will cause the plates 217 and 213' together with the plate 218 to move to the left until the square pin 219 engages a step of thedimes selector 42 which is in its path, this movement carrying the determining slide 121 with it and also moving the nickel selector 44 along its sleeve. The nqtches in the under side of slide 121 are so positioned that the ejectors 210 for the' proper amount of changed coins will be directly under notches through which the ejec- I tors can slightly rise, so that when the ejectors are finally'moved forward by the closing of the drawer the proper coins will be ejected. In case no nickel was desiredthe rollers 220 and 221 would not have been separated and the square pin 219 would have one half step less movement until it struck the dimes selector, thereby giving one half sli e 121 and bringing. another combination of notches over the ejectors 210. It will be seen that by movin the plate 218 and the'square pin. 219 a hall? step to the right before the mechanism as a whole is moved to the left, that a half ste greater movement of the d e 121 will be given than if the plate 218 had not been so moved. It will be understood that the closing of the cash drawer operates the ejectors before the crank are depending from the sleeve1198 is returned to restore the determining slide 121 and the determining arms for the pennies and dollars ejectors.

j The selecting mechanism is returned to normal position during the latter part of the closing movement of the cash drawer and to perform this function advantage is taken of the arms 193 and 194. It will be remembered thatthe selecting devices are connected (see Fig. 16) to pinions 46, 50 and 54, these being connected through pinions 47, 51 and 55 to the restoring pinions 57, 53 and 49. These .pinions 57, 53 and 49 are connected separately to restoring segments 241 journaled on shaft 61 and on each side of the supporting bars of the segments are rollers 242 and 243, these rollers being supported by bell cranks 244 and 245. The bell cranks 244 and 245 are journaled on shaft 61, the bellcrank-244 belng provided at its the pins 246 and 247.

pin 247 normally engaging'a cut away portion of the arm 193. The pin 195 which was previously stated as being adapted to guide the arms 193 and 194 is a 0 used to separate the said arms for the purpose of disconnecting them from the bell cranks 244 and 245. To accomplish this function the pin 195 is mounted on a crank arm 251 journaled on the trunnion 252 of the key coupler. The mechanism as shown in Fig. 6 is in the normal position and it will be clear, that in order to move the selecting devices in either direction the bell cranks 244 and 245 must be released, inasmuch as the segments 241 are connected positively to the selecting devices. I

The k y coupler is elevated with any key so that the pin 195 immediately moves upward, thereby forcing apart the arms 193 and 194 and carrying their upward projecting ends from over the pins 246 and 247 on the bell cranks 244 and 245, so that the segments 241 may move without hindrance Supposing one or both in either direction. of the bell cranks to have been moved by opposite movements of the three segments 241, the pins 246 and 247 will have been carried above the upper ends of the arms 193 and 194, but when the cash drawer is opened the said arms will be raised by the cam groove 191 until the arms, which are shown as connected by the spring 253, snap over movement of the drawer, the arms 193 and 194- will clearly be brought downward again and will rock the bell cranks 244 and 245 back to the position of Fig. 6, thereby in all cases returning all'of the restoring segments 241 to their central zero position. This movement will clearly serve to restore the selectors and the selecting pinions 30 totheir normal central position also.

It may happen through mistake or intention that the purchase amount registered on the keys would sometimes exceed the deposit amount. In such a case it is of course necessary that no change shouldbe ejected, although the selectors would have been positioned to permit ejection of more or less change. Such an operation might occur through intention where the amount tendered in payment of a sale was precisely equal to the amount of the purchase or it might occur when the cash drawer was desired to be opened to change a coin or bill. To prevent the effective operation of any of the ejectors if the purchase amount is greater than the deposit amount, means are provided for preventing the movement of the determining devices from their normal zero position so that although the ejectors will be moved rearward and then restored to During the return nism between the several denominations of the selecting mechanism inasmuch as, if an amount in either the cents or the dimes denomination greater than the depositamount is registered. the purchase selector corresponding thereto will be moved from its normal central position in a subtractingdirection. This movement will clearly cause a transfer movement to the dollars selecting mechanism 'thereby'moving it also in ,a sub- Asiinilar device is tracting direction. A mechanism is therefore provided which is moved to operative position when the dollarsselecting device is moved from its central zero position in a subtracting direction, and this mechanism 'is employed to prevent any movement of the determining devices for all denominations of the machine.

Fig. 9 'shows a detail of the preventing deviceand as shown it comprises a cam 261 fast to dollar selector 41 over which engages a lever arm 262 fast on a transverse shaft 263. In this figure cam 261 is shown in central or zero position and it will beclear fromthe p receeding description that the deposit movementwill be in a clock wise direction whereas. a purchase. movement will be in a counter clock wise direction. As this machine is not adapted to receive the entry of more than five dollars the cam is circular for half of its circumference while'th-e remaining half is of a different-radius. It'- will be understood that any subtracting or counter clockwise movement of cam 261 will serve to elevate lever 262 thereby rocking shaft 263. This shaftis also shown in Fig. 9 and is provided witha series ofcrank arms-264 having laterally extending pins 265 which are adapted to engage under the levers' of the determining devices which themselves engage the selecting disks. Clearly when cam 261 is rotated in the subtracting direction the raising of lever 262 will 1111561118 lever arms 264 thereby carrying the'pins 265 under the arms of the de termining devices and preventing them from dropping even if the selector s disks,have moved so that they normally would drop. ovided in connection with the fifty cent-e ector as shown in Fig. 10. As seen on Fig. 7 the dimes determ-im ing slide 217 is provided with alat'erai". lug

218- adapted to cooperate with the lever arm 264 also rigidly carried on shaft 263. Normally the lever arm 264"is, out'of the path of lug 218 but. when the. cam 261 "is. i-otatedin the subtracting direction the lever arm 264 is raised into the path of the ing 218 thereby entirely preventing any lateral movement of the dimes determining slide 121.

It will .be evident from the positionof the devices in Fig. 14 that normally none of the ejectors will be allowed to rise through the notches in slide 121. and, therefore no coin will be ejectedunless the determining slide movesmoreor less to the left of the figure. When, however, the .cam 261 has operated/in a subtracting direction, any

movement of the determining slide 121 is.

prevented. and therefore no coins will be ejected. For the fifty cent ejector a device very similar toth-at used in connection with the pennies and dollars device is provided.

The preventin mechanism previously describedis operative in all cases except when a purchase 'amount'having an excess of five dollars over the corresponding deposit amount is entered in the machine. Thatis, suppose for example a purchase of five dollars was made and the exact amount tendered in payment. In such an operation the no sale key might be first depressed to carry the machine through the first half key next depressed to enter the amount of purchase on the register and printing devices and to indicate the same. In this machine. the cam 261 will be given a complete rotation by ten steps of movement, so that these five steps would necessarily carry it around a half rotation. A deposit of five dollars would also move the cam 261 five steps in an adding direction, and therefore would bring it to the sameposition as would be the case if it were moved five steps in a subtracting direction but, in one case the change ejectors should be effective and in the other case they should be ineffective.-

To take care ofthis anomalous case an addi-' tional device is provided consisting of a pin 321' on the restoring segment 241 for the dollars selector; This device is shown in Fig. 9. The shaft 263 which carries the preventing lever arms 264 is rovided with a depending lever arm 322 which if the dollar'sselector is moved five steps .in the sub traeting direction, thereby carrying \the dollars'restoring segment 241 also five steps -in the subtracting direction, will bring the pin 321 into contact with the lever arm 322 rocking the same and thereby raising the arms 264 so as to prevent the dropping of the determining devices and also to prevent any lateral movement of the dimes determining slide 121. 1

.It is desirable to provide a printed record showing the transactions entered in the machine, and this mechanism is at the right hand end of the machine and differs from that in use-on the machine as on the market of its operationand the five dollar purchase only in some few particulars. Referring to Fig. 4 it will be seen that the selector controlling segments 18 mesh with gears 271,

'the pawlv 280 is carried first rearward and a and wheels of higher denom nations oper- -mechanism is ver .which serves to slide laterally a rod connotch thereof into or out of position -to en these gears being carried on nested sleeves running through to the right hand end of the machine and being there provided with printing wheels 272. The shaft '61 also extends to this part of the machine and is provided with a cam 273 for operating the platen 274. The key coupler trunnion 252 carries on'its outer end an arm 27 5 carrying a pawl 276 for feeding the record strip through a ratchet 277 carried by the winding roll 27 8. This mechanism provides for printing both the deposit and purchase amounts and for feeding the paper after each operation of the keys, but it is desired also to space therecord between the pairs of amounts so that the strip will indicate all the elements of'each transaction. To provide this extra spacing the lever arm 182 shown on Fig- 6 has fastened thereto a lateral pin 279 shown also in Fig. land this pin has mounted on the outer end thereof an additional pawl 280 engaging a ratchet 281 on a gear wheel 282 which through an intermediate gear 283 is connected to a gear 284 rigid with the feeding roller 278. As

returned the lever arm 182 is rocked and then forward, during the forward movement also moving the winding roller. 278 and thereby? roviding an extra feed of the strip besides tiat given and due. to the operation of the keys. Any means of inking the type wheels maybe used, that shown consisting of a usual inking ribbon. As shown in Fig. 1 the machine, is provided with aregistering device or totalizer comprising a series of wheels adapted to engage and be operated by the registeri-ngsegments 17,

ated through transfer mechanism from the wheels of lower order. It is desired usually to add on the registerthe amounts of pur chase only and with. this end in-view means are provided for preventing the engagement ofthe counter w th the actuating racks l7-. at each deposit operation of the keys. This similar to that shown in the patent to C eal No. 718,565. In the patent referred to a push key is provided trolling a notched plunger and-carrying the gage a lever which serves to throw the counterinto connection with the actuating ear. In'the present machine the cam 69 of igs. 6 and 13 takes the place of the push key, serving as it does to move the rod 7 3 later-' ally at each operation of the machine. The camming lever is shown in Fig. 2 as engaging the plunger referred to.

To compel a complete movement of the cash drawer in both directions, full stroke devices are provided one of which comprises opening movement of the cash drawer a rack 301 and a pivoted pawl, 302 engaging the same as shown in F ig. 6. This well known construction will clearly compel a full movement of the mutilated gear 180 and therefore a full movement of the cash drawer. As an additional precaution a second full stroke rack 303 shown in Fig. 5 is attached directlyto the cash drawer and is adapted to engage during the extreme outer part of the movement of the cash drawer with a stationary pawl 304. This rack 303 is provided with very fine teeth so that the lost motio n incidental to this type of full stroke device may be reduced to as small an extent as possible. By the provision of this rack 303 positioned as it is to engage and be operated during the extreme out-ward movement of the drawer, a complete movement offthe drawer is provided.-

It is desirable not to expose to view the indicators elevated in connection with an entry of a deposit .amount but on the other nand it is desired to permit the exposure of these indicators for the purchase amounts. To accomplish this function the shutter or flash 306 usual in this type of machine, the drawer is moved outwardly and then in which'it is arranged to be raised with the key coupler thereb hiding the indication until the end of t e operation, is providedand holding means comprising a pawl 307 (Fig-6) is shown. When the machine is operated for a' deposit amount, the flash 306 is raised with the indicators for the amount but is adapted to be latched in raised position by the pawl 307 engaging a pm 308 carried on the flash elevating arm 309. Clearly. this pawl will retain ,the flash .in elevated or concealing position even though the key coupler returns to its normal position. When the purchase amount is entered the indicators corresponding thereto are raised and are latched in their raised position by the usual back rod 310 shown in Fig. 2, but the flash still remains in concealing position. When the cash drawer is moved forwardly the pin 192 carried by a lever 311, (see 6) pivoted on a pini311 rocks around said pin finally carrying the pawl .307away from the pin- 308 and thereby permitting the flash to descend and expose thepurchase indicator.

:It' will be understood that theback rod 310 is rocked at each operation of the keys so that the indicators for the deposit amount will be released when the purchase amount is entered and the purchase indicators raised.

It is practically impossible to delay the releasing of the drawer until the very last increment of movement of the amount keys, but it is nevertheless desirable that the keys should be completely in home position before the ejecting mechanism operates. To secure'this result, mechanism shown in Fig. 5 is provided whereby the first part of the os1- tively restoreslthe key coupler to norma po- 

